RU2629156C1 - Air distributor - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: air distributor contains a diffuser housing, to which a tangentially supplying air duct is connected, communicating with the housing through a slit hole in the latter. At the inlet of the supply duct, a plate with two holes is fixed, one of which is connected to a nozzle with an axial fan located at the inlet, and a branch pipe is connected to the other opening through which air from the air conditioning system is supplied. The air distributor is equipped with two temperature sensors, one of which is located in the room, and the other is located at the outlet of the air from the air distributor. Both sensors are connected to a comparator that provides signals to the frequency controller of the fan motor and gives commands to change the speed, changing the airflow from the room, depending on the difference in the room air temperature and the outlet of the air distributor.

EFFECT: ability to automatically maintain the temperature difference between the supply air and the air in the room, while ensuring the rapid decay of the supply air velocities.

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Description

The invention relates to the field of ventilation and air conditioning and can be used in rooms for various purposes.

Known air distributor containing guide vanes placed in a rectangular case (Handbook of Special Works, Chapter IV, edited by Ya.Ya. Erlikhman, State Publishing House for Construction, Architecture and Building Materials, Moscow, 1992).

The disadvantage of such an air distributor are:

- the inability to use in systems of automatic control of the temperature difference between the supply air and the room air;

- the impossibility of reducing the range of the supply jets if the guide vanes direct these jets not into the wall or into the ceiling of the room.

Known air distributor (RF patent No. 2479799, priority 08.12.2011, published 04/20/2013. Bull. No. 11) is the closest analogue containing a cylindrical body with regulating guide vanes located in the outlet, an axial fan is installed at the entrance to the body, in the side surface a hole is cut out of the housing, equipped with a nozzle for connection to the supply duct, a hollow cylinder is placed coaxially inside the housing, with a gap from its inner surface, the side surface of which is perforated, between the inner awn body and the edges of the ends of the cylinder has annular sealing septum; the air distributor is equipped with a frequency regulator connected to an axial fan motor, two air temperature sensors are connected to the frequency regulator through a comparator, one of which is installed in the room, and the other is located at the air outlet from the guide vanes.

The disadvantage of such an air distributor is the impossibility of reducing the range of the supply air jets, if they are not directed into the wall or ceiling of the room.

The aim of the invention is the creation of an air distributor that allows not only to mix the supply air from the room with the supply air to reduce the temperature difference between the supply air and the room air in automatic mode, which will allow to refuse the second recirculation of the air conditioning system, reduce the amount of air from this system to the room , and reduce the cost of air treatment, but also provide faster attenuation of the supply jets, thereby providing more comfortable conditions ovia of indoor air.

This goal is achieved due to the fact that the air distributor contains a housing with a hole for connecting the supply duct, an axial fan, to the electric motor of which a frequency regulator is connected, to which two temperature sensors are connected through a comparison device, one of which is installed in the room, and the other is located at the outlet air from the air distributor, while the casing is made in the form of a diffuser, the hole in the casing has a slit-like shape, the supply duct is connected to this opening genially relative to the surface of the casing, it is equipped with two holes in the plate fixed at the air inlet, an axial fan is installed at the air inlet from the room into the pipe, connected to one of the holes in the plate at the inlet of the supply air duct, and a pipe is connected to the other hole of the plate at the inlet of the supply air duct connecting the supply duct to the air conditioning system.

This design of the air distributor allows not only mixing air from the room (recirculation air) to the supply air, ensuring a decrease in the temperature difference between the supply air and room air in an automatic mode, by changing the speed of the electric motor with the help of a frequency controller, but also providing a reduction in range (quick attenuation ) supply jets leaving the air diffuser, made in the form of a diffuser; in accordance with the research of V.M. Elterman described in the book "Ventilation of chemical industries." Moscow, Chemistry. 1980, p. 34. The range of the air jets is determined, inter alia, by the angle of the diffuser.

Thus, when implementing this technical solution, a technical result is achieved, consisting not only in the automatic control of the temperature difference between the supply air and the room air, but also in reducing the range of the supply jets, providing the most comfortable air conditions in the room.

Analysis of analogues showed that the claimed technical solution is new. The novelty of the solution lies in the fact that the casing of the air diffuser is made in the form of a diffuser, the hole in the casing is slit-shaped, the supply duct is connected tangentially to the casing surface and is equipped with a plate fixed to the air inlet, equipped with two openings, one of which is connected to a pipe through which the air from the room is pumped by an axial fan, and a pipe is connected to another hole through which air from the air conditioning system Ha.

Thus, the claimed technical solution is characterized by a new set of essential features that give a positive effect, and has signs of compliance with the criterion of "inventive step".

In FIG. 1 shows the proposed air distributor containing a diffuser housing 1 with a slit-like hole 2, attached to this hole (tangentially relative to the surface of the housing 1), a supply duct 3, a plate 4 fixed to the inlet of the duct, in which two holes 5 and 6 are cut.

A nozzle 7 is connected to the hole 5. An axial fan 8 is installed at the air inlet from the room to this nozzle, a frequency regulator 10 is connected to the electric motor 9, to which a comparator 11 is connected, receiving signals from temperature sensors 12 (installed in the room) and 13 ( placed at the air outlet 14 from the air distributor). A pipe 15 is connected to the hole 6 (in the plate 4) of the supply duct 3, through which air from the air conditioning system enters (not included in the claims and is not shown in Fig. 1).

The air distributor operates as follows. The sensor 12 installed in the room is adjusted to the set air temperature. The comparator 11 is turned on and adjusted to a predetermined temperature difference, the frequency controller 10 is turned on and tuned, and then the axial fan motor 8 is turned on, while air from the room is pumped through the pipe 7 and the hole 5 in the plate 4 into the supply duct 3. At the same time, through the pipe 15 and the hole 6 in the plate 4, air from the air conditioning system enters the supply duct 3. Air flows from the room and from the air conditioning system are mixed in the supply air duct 3 and through the slotted hole 2 enter the housing 1. The tangential connection of the supply air duct 3 to the surface of the housing 1 ensures the air flow in the confuser housing 1. The confuser shape of the housing 1 reduces the speed of the swirling air jets when moving them towards the exit 14 of the housing 1, which provides a faster attenuation of their speed in the room. The temperature sensor 13 installed at the air outlet from the housing 1 transmits data on the temperature of the air leaving the air distributor to the comparison device 11, which also receives data on the room temperature from the sensor 12. If the temperature difference between the sensors 12 and 13 deviates from the set values, then the comparison device 11 sends a signal to the frequency controller 10 to change the speed of the motor 9 of the axial fan 8 in one direction or another. When changing the number of revolutions of the electric motor 9, the productivity of the fan 8 also changes and, accordingly, the amount of air entering from the room into the air distributor changes, while changing the temperature of the air leaving the air distributor. If the temperature difference between the sensors 12 and 13 remains within the specified limits, then no signals are sent to the frequency controller from the comparison device and no signals are received to change the speed to the electric motor 9 of the fan 8 and the air flow rate of the fan 8 does not change.

The proposed air distributor is industrially applicable, as it does not contain elements that present difficulties in the manufacture and installation. An axial fan, a frequency controller, a comparator and temperature sensors are manufactured by industry.

The proposed air distributor according to the principle of operation, due to a new set of essential features, allows not only to reduce the temperature difference between the supply air and the room air in automatic mode, which can ultimately ensure the rejection of the second air conditioning system recirculation and reduce the amount of air coming from this system to the room , thus reducing the cost of air treatment, but will also provide more comfortable air conditions in the room by reducing speed supply jets (reducing their range).

Claims (1)

An air distributor comprising a housing with an opening for connecting a supply air duct, an axial fan, to a motor of which a frequency controller is connected, to which two temperature sensors are connected through a comparison device, one of which is installed in the room, and the other is located at the air outlet of the air distributor, characterized in that the case is made in the form of a diffuser, the hole in the case has a slit-like shape, the supply duct is connected tangentially relative to the top of the hole housing and is equipped with two holes in the plate fixed at the air inlet of the supply duct, and an axial fan is installed at the air inlet from the room into the nozzle, connected to one of the holes of the plate at the inlet of the supply duct, and a nozzle is connected to the other hole of the plate at the inlet of the supply duct connecting the supply duct to the air conditioning system.

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